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SEE213 - Distributed Generation System

Year:

2022 unit information

Important Update:

Unit delivery will be in line with the most current COVIDSafe health guidelines. We continue to tailor learning experiences for each unit to achieve the best possible mix of online and on-campus activities that successfully blend our approaches to learning, working and research. Please check your unit sites for announcements and updates.

Last updated: 4 March 2022

Enrolment modes:Trimester 2: Waurn Ponds (Geelong), Online
Credit point(s):1
EFTSL value:0.125
Unit Chair:Trimester 2: Mohammad Taufiqul Arif
Prerequisite:

SIT194 and one unit from SEJ102 or SEE103

Corequisite:

STP010 and one of SEE010 or SEJ010

Incompatible with:

SEE208

Typical study commitment:

Students will on average spend 150 hours over the teaching period undertaking the teaching, learning and assessment activities for this unit.

Scheduled learning activities - campus:

1 x 1 hour seminar per week, 3 x 2 hour studios per trimester.

Scheduled learning activities - cloud:

Online independent and collaborative learning including a 1 x 1 hour seminar per week and 3 x 2 hour studios per trimester.

Content

SEE213 covers in detail the commonly featuring distributed energy resources such as Solar PV systems, Battery energy storage systems, Wind energy systems, Diesel energy systems, etc. in the modern power grid.  Completion of this unit will allow the students to gain a thorough understanding on the characteristics, sizing and operating principles, as well as the grid integration of modern distributed energy resources.

ULO These are the Learning Outcomes (ULO) for this unit. At the completion of this unit, successful students can: Deakin Graduate Learning Outcomes
ULO1 Demonstrate a clear understanding of the characteristics
operation and design principles of commonly used distributed energy resources.

GLO1: Discipline-specific knowledge and capabilities
GLO4: Critical thinking

ULO2

 Demonstrate ability to solve design problems related to distributed energy resources.

GLO1: Discipline-specific knowledge and capabilities
GLO4: Critical thinking
GLO5: Problem solving

ULO3

 Demonstrate ability to critically analyse and communicate performance of commonly used distributed energy resources in terms of efficiency and reliable operation.

GLO1: Discipline-specific knowledge and capabilities
GLO4: Critical thinking

ULO4

 Demonstrate ability to conduct experimental studies related to distributed energy resources individually and/or in a group
and communicate the experimental results through written reports.

GLO1: Discipline-specific knowledge and capabilities
GLO7: Teamwork

These Unit Learning Outcomes are applicable for all teaching periods throughout the year

Assessment

Assessment Description Student output Grading and weighting
(% total mark for unit)		 Indicative due week
Problem based assignment 1 Written response to a set of numerical and analytical questions 30% Week 6
Laboratory reports Three written technical reports (10 page max each)

35%

 One week after completing each laboratory
Problem based assignment 2

Written response to a set of numerical and analytical questions

 35% Week 11

The assessment due weeks provided may change. The Unit Chair will clarify the exact assessment requirements, including the due date, at the start of the teaching period.

Learning Resource

The texts and reading list for the unit can be found on the University Library via the link below: SEE213 Note: Select the relevant trimester reading list. Please note that a future teaching period's reading list may not be available until a month prior to the start of that teaching period so you may wish to use the relevant trimester's prior year reading list as a guide only.

Unit Fee Information

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